third_party/skia/experimental/graphite/src/DrawWriter.h - cobalt - Git at Google

 /*
  * Copyright 2021 Google LLC
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef skgpu_DrawWriter_DEFINED
 #define skgpu_DrawWriter_DEFINED

 #include "experimental/graphite/src/DrawTypes.h"
 #include "src/gpu/BufferWriter.h"

 namespace skgpu {

 class DrawBufferManager;

 class DrawDispatcher; // Forward declaration, handles virtual dispatch of binds/draws

 /**
  * DrawWriter is a helper around recording draws (to a temporary buffer or directly to a
  * CommandBuffer), particularly when the number of draws is not known ahead of time, or the vertex
  * and instance data is computed at record time and does not have a known size.
  *
  * To use, construct the DrawWriter with the current pipeline layout or call newPipelineState() on
  * an existing DrawWriter and then bind that matching pipeline. When other dynamic state needs to
  * change between draw calls, notify the DrawWriter using newDynamicState() before recording the
  * modifications. See the listing below for how to append dynamic data or draw with existing buffers
  *
  * CommandBuffer::draw(vertices)
  *  - dynamic vertex data     -> DrawWriter::Vertices(writer) verts;
  *                               verts.append(n) << ...;
  *  - fixed vertex data       -> writer.draw(vertices, {}, vertexCount)
  *
  * CommandBuffer::drawIndexed(vertices, indices)
  *  - dynamic vertex data     -> unsupported
  *  - fixed vertex,index data -> writer.drawIndexed(vertices, indices, indexCount)
  *
  * CommandBuffer::drawInstances(vertices, instances)
  *  - dynamic instance data + fixed vertex data        ->
  *        DrawWriter::Instances instances(writer, vertices, {}, vertexCount);
  *        instances.append(n) << ...;
  *  - fixed vertex and instance data                   ->
  *        writer.drawInstanced(vertices, vertexCount, instances, instanceCount)
  *
  * CommandBuffer::drawIndexedInstanced(vertices, indices, instances)
  *  - dynamic instance data + fixed vertex, index data ->
  *        DrawWriter::Instances instances(writer, vertices, indices, indexCount);
  *        instances.append(n) << ...;
  *  - fixed vertex, index, and instance data           ->
  *        writer.drawIndexedInstanced(vertices, indices, indexCount, instances, instanceCount)
  */
 class DrawWriter {
 public:
     // NOTE: This constructor creates a writer that defaults 0 vertex and instance stride, so
     // 'newPipelineState()' must be called once the pipeline properties are known before it's used.
     DrawWriter(DrawDispatcher*, DrawBufferManager*);

     DrawWriter(DrawDispatcher*, DrawBufferManager*,
                PrimitiveType type, size_t vertexStride, size_t instanceStride);

     // Cannot move or copy
     DrawWriter(const DrawWriter&) = delete;
     DrawWriter(DrawWriter&&) = delete;

     // flush() should be called before the writer is destroyed
     ~DrawWriter() { SkASSERT(fPendingCount == 0); }

     DrawBufferManager* bufferManager() { return fManager; }

     // Issue draw calls for any pending vertex and instance data collected by the writer.
     // Use either flush() or newDynamicState() based on context and readability.
     void flush();
     void newDynamicState() { this->flush(); }

     // Notify the DrawWriter that a new pipeline needs to be bound, providing the primitive type and
     // attribute strides of that pipeline. This issues draw calls for pending data that relied on
     // the old pipeline, so this must be called *before* binding the new pipeline.
     void newPipelineState(PrimitiveType type, size_t vertexStride, size_t instanceStride) {
         this->flush();
         fPrimitiveType = type;
         fVertexStride = vertexStride;
         fInstanceStride = instanceStride;

         // NOTE: resetting pending base is sufficient to redo bindings for vertex/instance data that
         // is later appended but doesn't invalidate bindings for fixed buffers that might not need
         // to change between pipelines.
         fPendingBase = 0;
         SkASSERT(fPendingCount == 0);
     }

     // Collects new vertex data for a call to CommandBuffer::draw(). Automatically accumulates
     // vertex data into a buffer, issuing draw and bind calls as needed when a new buffer is
     // required, so that it is seamless to the caller. The draws do not use instances or indices.
     //
     // Usage (assuming writer has already had 'newPipelineState()' called with correct strides):
     //    DrawWriter::Vertices verts{writer};
     //    verts.append(n) << x << y << ...;
     //
     // This should not be used when the vertex stride is 0.
     class Vertices;

     // Collects new instance data for a call to CommandBuffer::drawInstanced() or
     // drawIndexedInstanced(). The specific draw call that's issued depends on if a non-null index
     // buffer is provided for the template. Like DrawWriter::Vertices, this automatically merges
     // the appended data into as few buffer binds and draw calls as possible, while remaining
     // seamless to the caller.
     //
     // Usage for drawInstanced (assuming writer has correct strides):
     //    DrawWriter::Instances instances{writer, fixedVerts, {}, fixedVertexCount};
     //    instances.append(n) << foo << bar << ...;
     //
     // Usage for drawIndexedInstanced:
     //    DrawWriter::Instances instances{writer, fixedVerts, fixedIndices, fixedIndexCount};
     //    instances.append(n) << foo << bar << ...;
     //
     // This should not be used when the instance stride is 0. However, the fixed vertex buffer can
     // be null (or have a stride of 0) if the vertex shader only relies on the vertex ID and no
     // other per-vertex data.
     class Instances;

     // Issues a draws with fully specified data. This can be used when all instance data has already
     // been written to known buffers, or when the vertex shader only depends on the vertex or
     // instance IDs. To keep things simple, these helpers do not accept parameters for base vertices
     // or instances; if needed, this can be accounted for in the BindBufferInfos provided.
     //
     // This will not merge with any already appended instance or vertex data, pending data is issued
     // in its own draw call first.
     void draw(BindBufferInfo vertices, unsigned int vertexCount) {
         this->bindAndFlush(vertices, {}, {}, 0, vertexCount);
     }
     void drawIndexed(BindBufferInfo vertices, BindBufferInfo indices, unsigned int indexCount) {
         this->bindAndFlush(vertices, indices, {}, 0, indexCount);
     }
     void drawInstanced(BindBufferInfo vertices, unsigned int vertexCount,
                        BindBufferInfo instances, unsigned int instanceCount) {
         this->bindAndFlush(vertices, {}, instances, vertexCount, instanceCount);
     }
     void drawIndexedInstanced(BindBufferInfo vertices, BindBufferInfo indices,
                               unsigned int indexCount, BindBufferInfo instances,
                               unsigned int instanceCount) {
         this->bindAndFlush(vertices, indices, instances, indexCount, instanceCount);
     }

 private:
     // Both of these pointers must outlive the DrawWriter.
     DrawDispatcher*    fDispatcher;
     DrawBufferManager* fManager;

     // Pipeline state matching currently bound pipeline
     PrimitiveType fPrimitiveType;
     size_t fVertexStride;
     size_t fInstanceStride;

     /// Draw buffer binding state for pending draws
     BindBufferInfo fVertices;
     BindBufferInfo fIndices;
     BindBufferInfo fInstances;
     // Vertex/index count for [pseudo]-instanced rendering:
     // == 0 is vertex-only drawing; > 0 is regular instanced drawing
     unsigned int fTemplateCount;

     unsigned int fPendingCount; // # of vertices or instances (depending on mode) to be drawn
     unsigned int fPendingBase; // vertex/instance offset (depending on mode) applied to buffer
     bool fPendingBufferBinds; // true if {fVertices,fIndices,fInstances} has changed since last draw

     void setTemplate(BindBufferInfo vertices, BindBufferInfo indices, BindBufferInfo instances,
                      unsigned int templateCount);
     void bindAndFlush(BindBufferInfo vertices, BindBufferInfo indices, BindBufferInfo instances,
                       unsigned int templateCount, unsigned int drawCount) {
         this->setTemplate(vertices, indices, instances, templateCount);
         fPendingBase = 0;
         fPendingCount = drawCount;
         this->flush();
     }

     // RAII - Sets the DrawWriter's template and marks the writer in append mode (disabling direct
     // draws until the Appender is destructed).
     class Appender;
     SkDEBUGCODE(const Appender* fAppender = nullptr;)
 };

 // Mirrors the CommandBuffer API, since a DrawWriter is meant to aggregate and then map onto
 // CommandBuffer commands, although these are virtual to allow for recording to intermediate
 // storage before a CommandBuffer is available.
 class DrawDispatcher {
 public:
     virtual ~DrawDispatcher() = default;

     virtual void bindDrawBuffers(BindBufferInfo vertexAttribs,
                                  BindBufferInfo instanceAttribs,
                                  BindBufferInfo indices) = 0;

     virtual void draw(PrimitiveType type, unsigned int baseVertex, unsigned int vertexCount) = 0;
     virtual void drawIndexed(PrimitiveType type, unsigned int baseIndex,
                              unsigned int indexCount, unsigned int baseVertex) = 0;
     virtual void drawInstanced(PrimitiveType type,
                                unsigned int baseVertex, unsigned int vertexCount,
                                unsigned int baseInstance, unsigned int instanceCount) = 0;
     virtual void drawIndexedInstanced(PrimitiveType type,
                                       unsigned int baseIndex, unsigned int indexCount,
                                       unsigned int baseVertex, unsigned int baseInstance,
                                       unsigned int instanceCount) = 0;
 };

 // Appender implementations for DrawWriter that set the template on creation and provide a
 // template-specific API to accumulate vertex/instance data.
 class DrawWriter::Appender {
 public:
     Appender(DrawWriter& w) : fWriter(w) {
         SkASSERT(!w.fAppender);
         SkDEBUGCODE(w.fAppender = this;)
     }

     ~Appender() {
         SkASSERT(fWriter.fAppender == this);
         SkDEBUGCODE(fWriter.fAppender = nullptr;)
     }

 protected:
     DrawWriter& fWriter;

     VertexWriter append(unsigned int count, size_t stride, BindBufferInfo& target);
 };

 class DrawWriter::Vertices : private DrawWriter::Appender {
 public:
     Vertices(DrawWriter& w) : Appender(w) {
         SkASSERT(w.fVertexStride > 0);
         w.setTemplate(w.fVertices, {}, {}, 0);
     }

     VertexWriter append(unsigned int count) {
         return this->Appender::append(count, fWriter.fVertexStride, fWriter.fVertices);
     }
 };

 class DrawWriter::Instances : private DrawWriter::Appender {
 public:
     Instances(DrawWriter& w,
               BindBufferInfo vertices,
               BindBufferInfo indices,
               unsigned int vertexCount)
             : Appender(w) {
         SkASSERT(w.fInstanceStride > 0);
         w.setTemplate(vertices, indices, w.fInstances, vertexCount);
     }

     VertexWriter append(unsigned int count) {
         return this->Appender::append(count, fWriter.fInstanceStride, fWriter.fInstances);
     }
 };

 } // namespace skgpu

 #endif // skgpu_DrawWriter_DEFINED
	/*
	* Copyright 2021 Google LLC
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef skgpu_DrawWriter_DEFINED
	#define skgpu_DrawWriter_DEFINED

	#include "experimental/graphite/src/DrawTypes.h"
	#include "src/gpu/BufferWriter.h"

	namespace skgpu {

	class DrawBufferManager;

	class DrawDispatcher; // Forward declaration, handles virtual dispatch of binds/draws

	/**
	* DrawWriter is a helper around recording draws (to a temporary buffer or directly to a
	* CommandBuffer), particularly when the number of draws is not known ahead of time, or the vertex
	* and instance data is computed at record time and does not have a known size.
	*
	* To use, construct the DrawWriter with the current pipeline layout or call newPipelineState() on
	* an existing DrawWriter and then bind that matching pipeline. When other dynamic state needs to
	* change between draw calls, notify the DrawWriter using newDynamicState() before recording the
	* modifications. See the listing below for how to append dynamic data or draw with existing buffers
	*
	* CommandBuffer::draw(vertices)
	* - dynamic vertex data -> DrawWriter::Vertices(writer) verts;
	* verts.append(n) << ...;
	* - fixed vertex data -> writer.draw(vertices, {}, vertexCount)
	*
	* CommandBuffer::drawIndexed(vertices, indices)
	* - dynamic vertex data -> unsupported
	* - fixed vertex,index data -> writer.drawIndexed(vertices, indices, indexCount)
	*
	* CommandBuffer::drawInstances(vertices, instances)
	* - dynamic instance data + fixed vertex data ->
	* DrawWriter::Instances instances(writer, vertices, {}, vertexCount);
	* instances.append(n) << ...;
	* - fixed vertex and instance data ->
	* writer.drawInstanced(vertices, vertexCount, instances, instanceCount)
	*
	* CommandBuffer::drawIndexedInstanced(vertices, indices, instances)
	* - dynamic instance data + fixed vertex, index data ->
	* DrawWriter::Instances instances(writer, vertices, indices, indexCount);
	* instances.append(n) << ...;
	* - fixed vertex, index, and instance data ->
	* writer.drawIndexedInstanced(vertices, indices, indexCount, instances, instanceCount)
	*/
	class DrawWriter {
	public:
	// NOTE: This constructor creates a writer that defaults 0 vertex and instance stride, so
	// 'newPipelineState()' must be called once the pipeline properties are known before it's used.
	DrawWriter(DrawDispatcher, DrawBufferManager);

	DrawWriter(DrawDispatcher, DrawBufferManager,
	PrimitiveType type, size_t vertexStride, size_t instanceStride);

	// Cannot move or copy
	DrawWriter(const DrawWriter&) = delete;
	DrawWriter(DrawWriter&&) = delete;

	// flush() should be called before the writer is destroyed
	~DrawWriter() { SkASSERT(fPendingCount == 0); }

	DrawBufferManager* bufferManager() { return fManager; }

	// Issue draw calls for any pending vertex and instance data collected by the writer.
	// Use either flush() or newDynamicState() based on context and readability.
	void flush();
	void newDynamicState() { this->flush(); }

	// Notify the DrawWriter that a new pipeline needs to be bound, providing the primitive type and
	// attribute strides of that pipeline. This issues draw calls for pending data that relied on
	// the old pipeline, so this must be called before binding the new pipeline.
	void newPipelineState(PrimitiveType type, size_t vertexStride, size_t instanceStride) {
	this->flush();
	fPrimitiveType = type;
	fVertexStride = vertexStride;
	fInstanceStride = instanceStride;

	// NOTE: resetting pending base is sufficient to redo bindings for vertex/instance data that
	// is later appended but doesn't invalidate bindings for fixed buffers that might not need
	// to change between pipelines.
	fPendingBase = 0;
	SkASSERT(fPendingCount == 0);
	}

	// Collects new vertex data for a call to CommandBuffer::draw(). Automatically accumulates
	// vertex data into a buffer, issuing draw and bind calls as needed when a new buffer is
	// required, so that it is seamless to the caller. The draws do not use instances or indices.
	//
	// Usage (assuming writer has already had 'newPipelineState()' called with correct strides):
	// DrawWriter::Vertices verts{writer};
	// verts.append(n) << x << y << ...;
	//
	// This should not be used when the vertex stride is 0.
	class Vertices;

	// Collects new instance data for a call to CommandBuffer::drawInstanced() or
	// drawIndexedInstanced(). The specific draw call that's issued depends on if a non-null index
	// buffer is provided for the template. Like DrawWriter::Vertices, this automatically merges
	// the appended data into as few buffer binds and draw calls as possible, while remaining
	// seamless to the caller.
	//
	// Usage for drawInstanced (assuming writer has correct strides):
	// DrawWriter::Instances instances{writer, fixedVerts, {}, fixedVertexCount};
	// instances.append(n) << foo << bar << ...;
	//
	// Usage for drawIndexedInstanced:
	// DrawWriter::Instances instances{writer, fixedVerts, fixedIndices, fixedIndexCount};
	// instances.append(n) << foo << bar << ...;
	//
	// This should not be used when the instance stride is 0. However, the fixed vertex buffer can
	// be null (or have a stride of 0) if the vertex shader only relies on the vertex ID and no
	// other per-vertex data.
	class Instances;

	// Issues a draws with fully specified data. This can be used when all instance data has already
	// been written to known buffers, or when the vertex shader only depends on the vertex or
	// instance IDs. To keep things simple, these helpers do not accept parameters for base vertices
	// or instances; if needed, this can be accounted for in the BindBufferInfos provided.
	//
	// This will not merge with any already appended instance or vertex data, pending data is issued
	// in its own draw call first.
	void draw(BindBufferInfo vertices, unsigned int vertexCount) {
	this->bindAndFlush(vertices, {}, {}, 0, vertexCount);
	}
	void drawIndexed(BindBufferInfo vertices, BindBufferInfo indices, unsigned int indexCount) {
	this->bindAndFlush(vertices, indices, {}, 0, indexCount);
	}
	void drawInstanced(BindBufferInfo vertices, unsigned int vertexCount,
	BindBufferInfo instances, unsigned int instanceCount) {
	this->bindAndFlush(vertices, {}, instances, vertexCount, instanceCount);
	}
	void drawIndexedInstanced(BindBufferInfo vertices, BindBufferInfo indices,
	unsigned int indexCount, BindBufferInfo instances,
	unsigned int instanceCount) {
	this->bindAndFlush(vertices, indices, instances, indexCount, instanceCount);
	}

	private:
	// Both of these pointers must outlive the DrawWriter.
	DrawDispatcher* fDispatcher;
	DrawBufferManager* fManager;

	// Pipeline state matching currently bound pipeline
	PrimitiveType fPrimitiveType;
	size_t fVertexStride;
	size_t fInstanceStride;

	/// Draw buffer binding state for pending draws
	BindBufferInfo fVertices;
	BindBufferInfo fIndices;
	BindBufferInfo fInstances;
	// Vertex/index count for [pseudo]-instanced rendering:
	// == 0 is vertex-only drawing; > 0 is regular instanced drawing
	unsigned int fTemplateCount;

	unsigned int fPendingCount; // # of vertices or instances (depending on mode) to be drawn
	unsigned int fPendingBase; // vertex/instance offset (depending on mode) applied to buffer
	bool fPendingBufferBinds; // true if {fVertices,fIndices,fInstances} has changed since last draw

	void setTemplate(BindBufferInfo vertices, BindBufferInfo indices, BindBufferInfo instances,
	unsigned int templateCount);
	void bindAndFlush(BindBufferInfo vertices, BindBufferInfo indices, BindBufferInfo instances,
	unsigned int templateCount, unsigned int drawCount) {
	this->setTemplate(vertices, indices, instances, templateCount);
	fPendingBase = 0;
	fPendingCount = drawCount;
	this->flush();
	}

	// RAII - Sets the DrawWriter's template and marks the writer in append mode (disabling direct
	// draws until the Appender is destructed).
	class Appender;
	SkDEBUGCODE(const Appender* fAppender = nullptr;)
	};

	// Mirrors the CommandBuffer API, since a DrawWriter is meant to aggregate and then map onto
	// CommandBuffer commands, although these are virtual to allow for recording to intermediate
	// storage before a CommandBuffer is available.
	class DrawDispatcher {
	public:
	virtual ~DrawDispatcher() = default;

	virtual void bindDrawBuffers(BindBufferInfo vertexAttribs,
	BindBufferInfo instanceAttribs,
	BindBufferInfo indices) = 0;

	virtual void draw(PrimitiveType type, unsigned int baseVertex, unsigned int vertexCount) = 0;
	virtual void drawIndexed(PrimitiveType type, unsigned int baseIndex,
	unsigned int indexCount, unsigned int baseVertex) = 0;
	virtual void drawInstanced(PrimitiveType type,
	unsigned int baseVertex, unsigned int vertexCount,
	unsigned int baseInstance, unsigned int instanceCount) = 0;
	virtual void drawIndexedInstanced(PrimitiveType type,
	unsigned int baseIndex, unsigned int indexCount,
	unsigned int baseVertex, unsigned int baseInstance,
	unsigned int instanceCount) = 0;
	};

	// Appender implementations for DrawWriter that set the template on creation and provide a
	// template-specific API to accumulate vertex/instance data.
	class DrawWriter::Appender {
	public:
	Appender(DrawWriter& w) : fWriter(w) {
	SkASSERT(!w.fAppender);
	SkDEBUGCODE(w.fAppender = this;)
	}

	~Appender() {
	SkASSERT(fWriter.fAppender == this);
	SkDEBUGCODE(fWriter.fAppender = nullptr;)
	}

	protected:
	DrawWriter& fWriter;

	VertexWriter append(unsigned int count, size_t stride, BindBufferInfo& target);
	};

	class DrawWriter::Vertices : private DrawWriter::Appender {
	public:
	Vertices(DrawWriter& w) : Appender(w) {
	SkASSERT(w.fVertexStride > 0);
	w.setTemplate(w.fVertices, {}, {}, 0);
	}

	VertexWriter append(unsigned int count) {
	return this->Appender::append(count, fWriter.fVertexStride, fWriter.fVertices);
	}
	};

	class DrawWriter::Instances : private DrawWriter::Appender {
	public:
	Instances(DrawWriter& w,
	BindBufferInfo vertices,
	BindBufferInfo indices,
	unsigned int vertexCount)
	: Appender(w) {
	SkASSERT(w.fInstanceStride > 0);
	w.setTemplate(vertices, indices, w.fInstances, vertexCount);
	}

	VertexWriter append(unsigned int count) {
	return this->Appender::append(count, fWriter.fInstanceStride, fWriter.fInstances);
	}
	};

	} // namespace skgpu

	#endif // skgpu_DrawWriter_DEFINED